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Steel Processing and Fabrication: Automation Flexibility Study Manufacturing flexibility and the economic benefits (PART 5)
Superior Machinery Strategies Perth, Sydney, Auckland, Kuala Lumpur
www.smales.com.au
Objective and development of the Flexibility Study
The flexibility study is divided into two sections, section A and section B.
Section A identifies the changes that are occurring in an organisation and classifies these
changes. An organisation needs to be flexible to accommodate these changes and continue
functioning normally. It is critical that all organisations know what changes are occurring and
why.
This is crucial information that enables them to understand where they need to place their
attention.
It is very important to prioritize these changes as it gives an insight into the needed flexibility.
Changes will be prioritized based on their frequency of occurrence and the extent to which each
affects the performance factors. A comprehensive set of performance factors was developed
and it includes:
Labour Efficiency:
Labour is one of the most important resources of a facility, therefore, any change that affects the
labour efficiency will definitely affect the performance of the facility as a whole.
Machine Utilisation:
Machinery and equipment are also important resources, any change, good or bad that affects
machine utilisation, affects the overall performance of the facility.
Material Utilisation:
Material utilisation directly relates to a facility's performance. Any change that reduces material
utilisation e.g. by increasing scrap will reduce the facility's performance.
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Space Utilisation:
A major part of a business investment goes into acquiring the space, therefore, space utilisation
becomes a performance factor.
Inventory:
The inventory turnaround of a facility gives a clear picture of its performance, therefore,
inventory will be considered as a performance factor.
Lead Time:
A change affecting the lead time of a facility will upset the overall performance of the facility e.g.
a change that increases the lead time of a product will reduce the performance of the facility.
Instruction:
This is considered as a performance factor because any change that increases or decreases the
transfer of information i.e. instruction affects the leadtime, which is a performance factor.
If a changes impact on these performance factors could be quantified, it would provide a
perspective of the intensity of that change. Impact on any of the performance factors causes a
change in the overall efficiency of the organisation.
Frequency plays an important role in prioritizing a change. Naturally, a small change occurring
more frequently should be given a higher priority than a change with a higher performance
impact but occurring less frequently.
Superior Machinery Strategies Perth, Sydney, Auckland, Kuala Lumpur
www.smales.com.au
The implementation plan of the Flexibility Study is as follows:
Firstly, a manager with flexibility responsibilities is identified. The flexibility study is designed to
identify all the changes that are currently occurring in the business or identified to happen.
These are individuals who understand the manufacturing environment of the company and who
can answer the questions completely and accurately.
The participants of the flexibility study should be familiar with the equipment involved,
processes, maintenance and current business direction. This knowledge would enable the
individual to list changes, causes and the efforts taken to address the changes. Various
individuals from various departments or by a group of individuals could complete the flexibility
study. The number of participants depends on the size of the organisation and their ability to
answer all the questions accurately.
Section A of the flexibility study has six questions. All the questions are listed and explained below:
Question: #1
Indicate the five most important external changes that have occurred in your company and
classify each change by marking them 1 5.
The intent of this question is to list external changes and classify them. The classification would
help relate these changes to the needed flexibility. This also provides the participants with an
opportunity to review the changes that are impacting their business.
Superior Machinery Strategies Perth, Sydney, Auckland, Kuala Lumpur
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Question: #2
Indicate the five most important internal changes that have occurred in your company, and
classify each change by marking on the appropriate box as:
Internal Change generated as a consequence of an external change
Internal Change generated as a consequence of an internal policy
Internal Change generated as a consequence of an internal failure
Other
This question intends to list all the internal changes occurring in the business and classify them.
Classification into internal and external change guarantees that no change is missed. Internal
and external changes may be reported by different individuals based on the information they
have, e.g. a sales manager may fill in the external changes while a process engineer lists the
internal changes.
Question: #3
Briefly state the causes of the changes you have listed above.
This question gives the participant an opportunity to investigate why the changes are occurring.
The information gathered will be used to prioritize the changes.
Question: #4
Briefly state the efforts that you have made to counteract the changes listed above.
Here the participant lists all the efforts taken to address the change. This will give the flexibility
study an idea as to whether any flexible solution has already been used.
Question: #5
How do you rate the impact on performance factors, listed below, due to the change?
The answer to this question will enable us to prioritise the changes.
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Assume that performance of each factor is 100 % before a change takes place.
Fill in the performance of the factor after the change has occurred as illustrated below:
Labour Efficiency: How does a change affect the labour efficiency?
e.g. Due to new tolerance requirements the labour efficiency reduces by 5%.
Machine Utilisation: How does a change affect the machine utilisation?
e.g. Due to the addition of a new product the machine utilisation reduces by 10%.
Material Utilisation: How does a change affect the material utilisation?
e.g. New manufacturing process leads to more scrap, hence material utilisation dropped by
20%.
Space Utilisation: How does a change affect the space utilisation?
e.g. The policy reduces the inventory space utilisation by 50% inventory.
Lead Time: How does a change affect the lead time (% increase or decrease)?
e.g. A new machine reduces the lead time by 8%.
Instruction: How does a change affect the need of required instructions?
e.g. A new inspection policy demands more instructions for the inspectors.
Question: #6
How often does the change occur per year?
This question notes the frequency of a change. The value is "1" if the change occurs once every
year or "0.5" if it occurs once every two years and so on.
An average impact on all the factors is calculated for each change and is multiplied by its
frequency of occurrence to get the rating for each change.
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The changes could be rated according to its impact on the total performance. This helps in
deciding which change should be addressed first and the type of flexibility needed to counteract
it.
Section B has ten questions, these questions are asked to calculate the actual and needed measures of the five flexibilities listed previously.
Question: #7
For each change you have stated, select the type of flexibility that would counteract it.
This question gives the participant a chance to express their views on the needed flexibility.
More than one type of flexibility could be selected as a strategy to address a change.
Question: #8
How many bottleneck processes do you have?
The number of bottleneck machines is important for computing all the flexibilities. The bottleneck
machines are crucial for any improvement in flexibility.
Question: #9
What number of operations is the system designed for?
This gives an insight into the capability of the system in terms of machine flexibility.
Question: #10
How many operations does the system actually perform? This is the actual machine flexibility of
the system.
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Question: #11
How many bottleneck operations do you have?
This information is useful to compute all the flexibilities, and these operations are crucial to
improve the flexibility of the system.
Question: #12
How many different ways can a product be produced?
This is the actual scheduling flexibility of the system for a particular product.
Question: #13
How many products was the system designed to produce?
This gives the capability of the system in terms of process flexibility.
Question: #14
How many products does the system actually produce?
This is the actual process flexibility of the system.
Question: #15
What is the cycle time of a new product?
This is the time spent from designing to launching a new product. This information is used to
calculate the product flexibility.
Question: #16
How often is a new product introduced?
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This gives the actual product flexibility of the system.
Needed Product Flexibility:
Product flexibility refers to the ease with which new products can be added or substituted for
existing products. Thus, the needed measure for product flexibility would be; the number of
products to be added or substituted for existing products to counteract the demand variety
change. Product flexibility is very important for a facility that is increasing the number of product
introductions for a certain period, as it enables faster response by bringing newly designed
products.
There are several factors that should be considered to determine the needed product flexibility.
We begin with the basic question, why do we need to substitute an existing product or add a
new product? The probable reasons could be:
Maturity Cycle of the existing product
Technological Innovations
Market stimulation
New market search and
Competitive pressures
Key drivers; G.P., revenue, margin, strategic compatibility.
Maturity Cycle:
Product Life Cycle is the time a product exists from conception to abandonment or retirement.
A typical product life cycle passes through four stages, introduction, growth, maturity and
decline.
The maturity stage is a period of time when the sales increase at a decreasing rate. After the
maturity phase starts the decline phase; here changes in competitive activities, consumer
preferences, product technology and other environmental forces tend to lead to the decline of
mature products.
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The need for a new product increases as the maturity phase of an existing product begins to
end.
Technological Innovations:
Emergence of new technologies makes it unfeasible to keep on manufacturing the current
product. In fact, technological innovation is one of the reasons that start the decline phase of a
product. This forces a manufacturer to substitute the current product with a new one that
incorporates the new technology.
Market Stimulation:
Sometimes it becomes necessary to introduce new products just to stimulate a dull market. For
example, a writing pen manufacturer would introduce pens with different colours and shapes to
stimulate the otherwise dull and steady pen market.
New Market Search:
Sometimes a manufacturer is forced to manufacture a new product to enter a new market. The
new market could be new customers for the same product, or new customers for new products.
The same product could be improved to match the customer preferences of the new market, or
it could be a totally new product from the same product family. Following the previous example,
the pen manufacturer would manufacture a gold plated pen to enter the new market, i.e., the
executives. The manufacturer could also start manufacturing pencils and erasers that fall in the
same product family of "writing aids" and enter a new market of pencils and erasers.
Superior Machinery Strategies Perth, Sydney, Auckland, Kuala Lumpur
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Competitive Pressures:
A manufacturer might be forced to manufacture a new product only to counteract competitive
pressures. The competitor might come up with a new product due to maturity cycle,
technological innovation, market stimulation or new market search. For example, a car
manufacturer might be forced to manufacture a bubble shaped car to prevent the erosion of his
market share by a competitor's car that has brought about a change in customer preferences.
One could consider the percentage increase in the competitor's sales for a period, which could
be attributed to the new products that he offers. The needed product flexibility to meet the
market demand would be calculated as follows:
For each of the five reasons mentioned above, list the products needed to counteract the
change in the given table. Assign an ID for each product.
Cross out the products that repeat. For example, a new product because of maturity cycle might
incorporate the technological innovations; hence only one product will satisfy both the
conditions.
Repeat the above procedure for all the products in the family. In case of the "writing aid"
example, repeat the procedure for pen, pencil and eraser. The summation of all the products will
be the needed product flexibility.
Needed Volume Flexibility
Volume flexibility of a manufacturing system is its ability to be operated profitably at different
overall output levels. A system is always economical if it is operating above the breakeven
volume. Thus, the needed measure of volume flexibility is the volume below the breakeven at
which a facility should operate economically to overcome the demand volume change.
Superior Machinery Strategies Perth, Sydney, Auckland, Kuala Lumpur
www.smales.com.au
Needed volume flexibility is a critical measure. As a result of today's fluctuating market, it has
become increasingly important and difficult for a facility to be capable of functioning
economically at different levels of output. Volume flexibility is a measure of the facility's ability to
continue operating economically at less than 100% capacity. For any production facility, the
revenue generated increases with the capacity utilisation.
The facility suffers losses if it operates below its breakeven. Thus, breakeven capacity will be
considered a measure of a facility's volume flexibility. Therefore, for a given period the needed
volume flexibility will be the desired capacity at which a facility should operate to be economical.
It should be noted that volume flexibility is needed only if a facility has to operate below its
current breakeven capacity.
The actual measure of volume flexibility will be the current breakeven capacity. Market demand
might force the facility to operate below the breakeven.
Machine Flexibility
Machine flexibility refers to the various types of operations that a machine can perform without
requiring prohibitive effort in switching from one operation to another. Thus, the needed
measure of machine flexibility would be the number of operations a machine should perform to
produce the needed number of products.
Machine flexibility is important for all other types of flexibilities; it provides the basic framework
for manufacturing flexibility. Machine flexibility provides strategic advantages of lower batch
sizes, inventory cost saving, higher machine utilisation and shorter leadtime for new product
introduction.
Needed product flexibility yields a set of all the operations needed to manufacture the needed
products. A set of all the machines is available, a matrix is constructed with rows representing
the machines and columns representing the various operations. Each value in the matrix will
represent the efficiency of a machine to perform the corresponding operation. The efficiency will
be calculated as follows:
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Identify a machine for each operation that can perform the operation at the fastest speed. The
efficiency of this machine becomes 100.
For the selected operation, find the efficiency of the remaining machines relative to the fastest
machine.
Repeat the above procedure for each operation.
The position of a machine will depend on the number of operations it performs. The higher the
number of operations the higher will be the ranking of that machine. Similar machines (i.e.
machines performing similar operations) will be grouped together.
Machines dedicated to only one operation need not be considered if there is no possibility of that
machine performing any other operation. E.g. a painting machine can never perform machining
operations.
The procedure to calculate the needed machine flexibility will be as follows:
For a standard period compute the number of operations to be performed, e.g. five drilling jobs
to be completed in one hour, etc.
Schedule the machine in the first row for the operation it performs most efficiently or to the
operation that no other machine can perform.
Calculate the time available on that machine, if the machine is still available after completing all
the scheduled jobs; now schedule it for the operation that it can perform second most efficiently.
Again compute the time available on that machine, schedule the third most efficient operation or
proceed to the machine in the next row.
Keep repeating the above steps until all of the machines or all of the operations are scheduled.
If all the operations are scheduled and there are machines unutilised it means these machines
are redundant and removing these machines from the facility can increase the machine
flexibility.
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www.smales.com.au
If all of the machines are scheduled and there are still some operations undone, identify the
machines which are underutilised and schedule the remaining operations to these machines.
The underutilised machines will have to increase the number of operations they perform. Thus,
the needed measure of machine flexibility could be calculated.
Summary
Flexibility influences the performance factors that include labour efficiency, machine utilisation,
material utilisation, space utilisation, inventory, leadtime and instructions. A flexible system
offers a strategic advantage to a company. The advantages of flexibility include increased
machine utilisation, scheduling flexibility, ease of engineering changes, ease of expansion,
reduced manufacturing lead time, lower inprocess inventory and reduced direct and indirect
labour.
The choice of flexible strategy becomes very important. The "Flexible Solution Design Process"
considers the market conditions to compute the needed flexibility and the percentage gap
between the actual and the needed measure to select the appropriate flexible strategy. Factors
such as affordability, ROI on investment, organisational readiness and top management support
are also considered before suggesting a strategy; this reduces the risk involved and justifies the
investment.
The flexibility study gives the participant an opportunity to understand the changes occurring in
the business, classify and prioritise them.
Superior Machinery Strategies Perth, Sydney, Auckland, Kuala Lumpur
www.smales.com.au